Low dieletric constant erosion resistant material

Assignee

• SIKORSKY AIRCRAFT CORPORATION · US

Inventors

• John E. Holowczak · South Windsor, US
• Elliot F. Olster · Orange, US
• Willard H. Sutton · Plattsburgh, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02T50/60
• WIPO fieldTransport
• WIPO sectorMechanical engineering

Abstract

An erosion resistant ceramic component is synthesized from a silicon oxynitride precursor powder with a sintering aide. The sintering aide, preferably aluminum oxide and/or lutetium oxide are added to the silicon oxynitride precursor powder and ball milled. The composition is then decanted, dried and granulated. The composition is then formed into the shape of the desired component by hot pressing in a graphite die. A heat treatment process may also be applied after hot pressing to further improve erosion resistance by crystallizing amorphous grain boundary phases to provide a ceramic component having sand erosion characteristics superior to electro-formed nickel. The component provides a dielectric constant which is much lower than the dielectric constant of an electro-formed nickel component. The erosion resistant ceramic components are particularly applicable to leading edge components of main rotor blades, however, erosion protection of tail rotor blades, engine propellers, turbine blades, and other such components where high levels of erosion protection, and a low dielectric constant are desired will also benefit.